/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package org.apache.lucene.search;

import static org.apache.lucene.util.RamUsageEstimator.HASHTABLE_RAM_BYTES_PER_ENTRY;
import static org.apache.lucene.util.RamUsageEstimator.LINKED_HASHTABLE_RAM_BYTES_PER_ENTRY;
import static org.apache.lucene.util.RamUsageEstimator.QUERY_DEFAULT_RAM_BYTES_USED;

import com.carrotsearch.randomizedtesting.generators.RandomNumbers;
import com.carrotsearch.randomizedtesting.generators.RandomPicks;
import java.io.IOException;
import java.io.UncheckedIOException;
import java.lang.reflect.Field;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.ConcurrentModificationException;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicLong;
import java.util.concurrent.atomic.AtomicReference;
import java.util.function.IntConsumer;
import java.util.function.IntSupplier;
import org.apache.lucene.document.Document;
import org.apache.lucene.document.Field.Store;
import org.apache.lucene.document.LongPoint;
import org.apache.lucene.document.NumericDocValuesField;
import org.apache.lucene.document.SortedNumericDocValuesField;
import org.apache.lucene.document.StringField;
import org.apache.lucene.document.TextField;
import org.apache.lucene.index.DirectoryReader;
import org.apache.lucene.index.DocValues;
import org.apache.lucene.index.FilterDirectoryReader;
import org.apache.lucene.index.FilterLeafReader;
import org.apache.lucene.index.IndexReader;
import org.apache.lucene.index.IndexWriter;
import org.apache.lucene.index.IndexWriterConfig;
import org.apache.lucene.index.LeafReader;
import org.apache.lucene.index.LeafReaderContext;
import org.apache.lucene.index.NoMergePolicy;
import org.apache.lucene.index.SerialMergeScheduler;
import org.apache.lucene.index.Term;
import org.apache.lucene.search.BooleanClause.Occur;
import org.apache.lucene.store.Directory;
import org.apache.lucene.tests.index.RandomIndexWriter;
import org.apache.lucene.tests.search.AssertingIndexSearcher;
import org.apache.lucene.tests.search.CheckHits;
import org.apache.lucene.tests.search.DummyTotalHitCountCollector;
import org.apache.lucene.tests.util.LuceneTestCase;
import org.apache.lucene.tests.util.RamUsageTester;
import org.apache.lucene.tests.util.TestUtil;
import org.apache.lucene.util.Accountable;
import org.apache.lucene.util.BytesRef;
import org.apache.lucene.util.IOUtils;
import org.apache.lucene.util.RamUsageEstimator;
import org.apache.lucene.util.SuppressForbidden;

public class TestLRUQueryCache extends LuceneTestCase {

  private static final QueryCachingPolicy ALWAYS_CACHE =
      new QueryCachingPolicy() {

        @Override
        public void onUse(Query query) {}

        @Override
        public boolean shouldCache(Query query) throws IOException {
          return true;
        }
      };

  private static final QueryCachingPolicy NEVER_CACHE =
      new QueryCachingPolicy() {

        @Override
        public void onUse(Query query) {}

        @Override
        public boolean shouldCache(Query query) throws IOException {
          return false;
        }
      };

  public void testConcurrency() throws Throwable {
    final LRUQueryCache queryCache =
        new LRUQueryCache(
            1 + random().nextInt(20),
            1 + random().nextInt(10000),
            _ -> random().nextBoolean(),
            Float.POSITIVE_INFINITY);
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    final SearcherFactory searcherFactory =
        new SearcherFactory() {
          @Override
          public IndexSearcher newSearcher(IndexReader reader, IndexReader previous)
              throws IOException {
            IndexSearcher searcher = new IndexSearcher(reader);
            searcher.setQueryCachingPolicy(MAYBE_CACHE_POLICY);
            searcher.setQueryCache(queryCache);
            return searcher;
          }
        };
    final boolean applyDeletes = random().nextBoolean();
    final SearcherManager mgr = new SearcherManager(w.w, applyDeletes, false, searcherFactory);
    final AtomicBoolean indexing = new AtomicBoolean(true);
    final AtomicReference<Throwable> error = new AtomicReference<>();
    final int numDocs = atLeast(257);
    Thread[] threads = new Thread[3];
    threads[0] =
        new Thread() {
          @Override
          public void run() {
            Document doc = new Document();
            StringField f = new StringField("color", "", Store.NO);
            doc.add(f);
            for (int i = 0; indexing.get() && i < numDocs; ++i) {
              f.setStringValue(
                  RandomPicks.randomFrom(random(), new String[] {"blue", "red", "yellow"}));
              try {
                w.addDocument(doc);
                if ((i & 63) == 0) {
                  mgr.maybeRefresh();
                  if (rarely()) {
                    queryCache.clear();
                  }
                  if (rarely()) {
                    final String color =
                        RandomPicks.randomFrom(random(), new String[] {"blue", "red", "yellow"});
                    w.deleteDocuments(new Term("color", color));
                  }
                }
              } catch (Throwable t) {
                error.compareAndSet(null, t);
                break;
              }
            }
            indexing.set(false);
          }
        };
    for (int i = 1; i < threads.length; ++i) {
      threads[i] =
          new Thread() {
            @Override
            public void run() {
              while (indexing.get()) {
                try {
                  final IndexSearcher searcher = mgr.acquire();
                  try {
                    final String value =
                        RandomPicks.randomFrom(
                            random(), new String[] {"blue", "red", "yellow", "green"});
                    final Query q = new TermQuery(new Term("color", value));
                    CollectorManager<DummyTotalHitCountCollector, Integer> collectorManager =
                        DummyTotalHitCountCollector.createManager();
                    // will use the cache
                    final int totalHits1 = searcher.search(q, collectorManager);
                    final long totalHits2 =
                        searcher.search(
                            q,
                            new CollectorManager<FilterCollector, Integer>() {
                              @Override
                              public FilterCollector newCollector() throws IOException {
                                return new FilterCollector(collectorManager.newCollector()) {
                                  @Override
                                  public ScoreMode scoreMode() {
                                    // will not use the cache because of scores
                                    return ScoreMode.COMPLETE;
                                  }
                                };
                              }

                              @Override
                              public Integer reduce(Collection<FilterCollector> collectors)
                                  throws IOException {
                                return collectorManager.reduce(
                                    collectors.stream()
                                        .map(
                                            filterCollector ->
                                                (DummyTotalHitCountCollector) filterCollector.in)
                                        .toList());
                              }
                            });
                    assertEquals(totalHits2, totalHits1);
                  } finally {
                    mgr.release(searcher);
                  }
                } catch (Throwable t) {
                  error.compareAndSet(null, t);
                }
              }
            }
          };
    }

    for (Thread thread : threads) {
      thread.start();
    }

    for (Thread thread : threads) {
      thread.join();
    }

    try {
      if (error.get() != null) {
        throw error.get();
      }
      queryCache.assertConsistent();
    } finally {
      mgr.close();
      w.close();
      dir.close();
      queryCache.assertConsistent();
    }
  }

  @SuppressForbidden(reason = "Thread sleep")
  public void testLRUEviction() throws Exception {
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);

    Document doc = new Document();
    StringField f = new StringField("color", "blue", Store.NO);
    doc.add(f);
    w.addDocument(doc);
    f.setStringValue("red");
    w.addDocument(doc);
    f.setStringValue("green");
    w.addDocument(doc);
    final DirectoryReader reader = w.getReader();
    final IndexSearcher searcher = newSearcher(reader);
    final LRUQueryCache queryCache =
        new LRUQueryCache(2, 100000, _ -> true, Float.POSITIVE_INFINITY);

    final Query blue = new TermQuery(new Term("color", "blue"));
    final Query red = new TermQuery(new Term("color", "red"));
    final Query green = new TermQuery(new Term("color", "green"));

    assertEquals(Collections.emptyList(), queryCache.cachedQueries());

    searcher.setQueryCache(queryCache);
    // the filter is not cached on any segment: no changes
    searcher.setQueryCachingPolicy(NEVER_CACHE);
    searcher.search(new ConstantScoreQuery(green), 1);
    assertEquals(Collections.emptyList(), queryCache.cachedQueries());

    searcher.setQueryCachingPolicy(ALWAYS_CACHE);
    searcher.search(new ConstantScoreQuery(red), 1);

    if (!(queryCache.cachedQueries().equals(Collections.emptyList()))) {
      assertEquals(Arrays.asList(red), queryCache.cachedQueries());
    } else {
      // Let the cache load be completed
      Thread.sleep(200);
      assertEquals(Arrays.asList(red), queryCache.cachedQueries());
    }

    searcher.search(new ConstantScoreQuery(green), 1);

    if (!(queryCache.cachedQueries().equals(Arrays.asList(red)))) {
      assertEquals(Arrays.asList(red, green), queryCache.cachedQueries());
    } else {
      // Let the cache load be completed
      Thread.sleep(200);
      assertEquals(Arrays.asList(red, green), queryCache.cachedQueries());
    }

    searcher.search(new ConstantScoreQuery(red), 1);
    assertEquals(Arrays.asList(green, red), queryCache.cachedQueries());

    searcher.search(new ConstantScoreQuery(blue), 1);

    if (!(queryCache.cachedQueries().equals(Arrays.asList(green, red)))) {
      assertEquals(Arrays.asList(red, blue), queryCache.cachedQueries());
    } else {
      // Let the cache load be completed
      Thread.sleep(200);
      assertEquals(Arrays.asList(red, blue), queryCache.cachedQueries());
    }

    searcher.search(new ConstantScoreQuery(blue), 1);
    assertEquals(Arrays.asList(red, blue), queryCache.cachedQueries());

    searcher.search(new ConstantScoreQuery(green), 1);

    if (!(queryCache.cachedQueries().equals(Arrays.asList(red, blue)))) {
      assertEquals(Arrays.asList(blue, green), queryCache.cachedQueries());
    } else {
      // Let the cache load be completed
      Thread.sleep(200);
      assertEquals(Arrays.asList(blue, green), queryCache.cachedQueries());
    }

    searcher.setQueryCachingPolicy(NEVER_CACHE);
    searcher.search(new ConstantScoreQuery(red), 1);
    assertEquals(Arrays.asList(blue, green), queryCache.cachedQueries());

    reader.close();
    w.close();
    dir.close();
  }

  public void testClearFilter() throws IOException {
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);

    Document doc = new Document();
    StringField f = new StringField("color", "", Store.NO);
    doc.add(f);
    final int numDocs = atLeast(10);
    for (int i = 0; i < numDocs; ++i) {
      f.setStringValue(random().nextBoolean() ? "red" : "blue");
      w.addDocument(doc);
    }
    final DirectoryReader reader = w.getReader();
    final IndexSearcher searcher = newSearcher(reader);

    final Query query1 = new TermQuery(new Term("color", "blue"));
    // different instance yet equal
    final Query query2 = new TermQuery(new Term("color", "blue"));

    final LRUQueryCache queryCache =
        new LRUQueryCache(Integer.MAX_VALUE, Long.MAX_VALUE, _ -> true, 1);
    searcher.setQueryCache(queryCache);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    searcher.search(new BoostQuery(new ConstantScoreQuery(query1), random().nextFloat()), 1);
    assertEquals(1, queryCache.cachedQueries().size());

    queryCache.clearQuery(query2);

    assertTrue(queryCache.cachedQueries().isEmpty());
    queryCache.assertConsistent();

    reader.close();
    w.close();
    dir.close();
  }

  // This test makes sure that by making the same assumptions as LRUQueryCache, RAMUsageTester
  // computes the same memory usage.
  @AwaitsFix(bugUrl = "https://issues.apache.org/jira/browse/LUCENE-7595")
  public void testRamBytesUsedAgreesWithRamUsageTester() throws IOException {
    final LRUQueryCache queryCache =
        new LRUQueryCache(
            1 + random().nextInt(5),
            1 + random().nextInt(10000),
            _ -> random().nextBoolean(),
            Float.POSITIVE_INFINITY);
    // an accumulator that only sums up memory usage of referenced filters and doc id sets
    final RamUsageTester.Accumulator acc =
        new RamUsageTester.Accumulator() {
          @Override
          public long accumulateObject(
              Object o,
              long shallowSize,
              Map<Field, Object> fieldValues,
              Collection<Object> queue) {
            if (o instanceof DocIdSet) {
              return ((DocIdSet) o).ramBytesUsed();
            }
            if (o instanceof Query) {
              return QUERY_DEFAULT_RAM_BYTES_USED;
            }
            if (o instanceof IndexReader
                || o.getClass().getSimpleName().equals("SegmentCoreReaders")) {
              // do not take readers or core cache keys into account
              return 0;
            }
            if (o instanceof Map) {
              Map<?, ?> map = (Map<?, ?>) o;
              queue.addAll(map.keySet());
              queue.addAll(map.values());
              final long sizePerEntry =
                  o instanceof LinkedHashMap
                      ? LINKED_HASHTABLE_RAM_BYTES_PER_ENTRY
                      : HASHTABLE_RAM_BYTES_PER_ENTRY;
              return sizePerEntry * map.size();
            }
            // follow links to other objects, but ignore their memory usage
            super.accumulateObject(o, shallowSize, fieldValues, queue);
            return 0;
          }

          @Override
          public long accumulateArray(
              Object array, long shallowSize, List<Object> values, Collection<Object> queue) {
            // follow links to other objects, but ignore their memory usage
            super.accumulateArray(array, shallowSize, values, queue);
            return 0;
          }
        };

    Directory dir = newDirectory();
    // serial merges so that segments do not get closed while we are measuring ram usage
    // with RamUsageTester
    IndexWriterConfig iwc = newIndexWriterConfig().setMergeScheduler(new SerialMergeScheduler());
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);

    final List<String> colors = Arrays.asList("blue", "red", "green", "yellow");

    Document doc = new Document();
    StringField f = new StringField("color", "", Store.NO);
    doc.add(f);
    final int iters = atLeast(5);
    for (int iter = 0; iter < iters; ++iter) {
      final int numDocs = atLeast(10);
      for (int i = 0; i < numDocs; ++i) {
        f.setStringValue(RandomPicks.randomFrom(random(), colors));
        w.addDocument(doc);
      }
      try (final DirectoryReader reader = w.getReader()) {
        final IndexSearcher searcher = newSearcher(reader);
        searcher.setQueryCache(queryCache);
        searcher.setQueryCachingPolicy(MAYBE_CACHE_POLICY);
        for (int i = 0; i < 3; ++i) {
          final Query query =
              new TermQuery(new Term("color", RandomPicks.randomFrom(random(), colors)));
          searcher.search(new ConstantScoreQuery(query), 1);
        }
      }
      queryCache.assertConsistent();
      assertEquals(RamUsageTester.ramUsed(queryCache, acc), queryCache.ramBytesUsed());
    }

    w.close();
    dir.close();
  }

  /** A query that doesn't match anything */
  private static class DummyQuery extends Query {

    private static final IntSupplier COUNTER =
        new IntSupplier() {
          int counter = 0;

          @Override
          public int getAsInt() {
            return counter++;
          }
        };
    private final int id;

    DummyQuery() {
      id = COUNTER.getAsInt();
    }

    @Override
    public Weight createWeight(IndexSearcher searcher, ScoreMode scoreMode, float boost)
        throws IOException {
      return new ConstantScoreWeight(this, boost) {
        @Override
        public ScorerSupplier scorerSupplier(LeafReaderContext context) throws IOException {
          return null;
        }

        @Override
        public boolean isCacheable(LeafReaderContext ctx) {
          return true;
        }
      };
    }

    @Override
    public void visit(QueryVisitor visitor) {}

    @Override
    public boolean equals(Object other) {
      return sameClassAs(other) && id == ((DummyQuery) other).id;
    }

    @Override
    public int hashCode() {
      return id;
    }

    @Override
    public String toString(String field) {
      return "DummyQuery";
    }
  }

  // Test what happens when the cache contains only filters and doc id sets
  // that require very little memory. In that case most of the memory is taken
  // by the cache itself, not cache entries, and we want to make sure that
  // memory usage is not grossly underestimated.
  @AwaitsFix(bugUrl = "https://issues.apache.org/jira/browse/LUCENE-7595")
  public void testRamBytesUsedConstantEntryOverhead() throws IOException {
    final LRUQueryCache queryCache =
        new LRUQueryCache(1000000, 10000000, _ -> true, Float.POSITIVE_INFINITY);

    final RamUsageTester.Accumulator acc =
        new RamUsageTester.Accumulator() {
          @Override
          public long accumulateObject(
              Object o,
              long shallowSize,
              Map<Field, Object> fieldValues,
              Collection<Object> queue) {
            if (o instanceof DocIdSet) {
              return ((DocIdSet) o).ramBytesUsed();
            }
            if (o instanceof Query) {
              return QUERY_DEFAULT_RAM_BYTES_USED;
            }
            if (o.getClass().getSimpleName().equals("SegmentCoreReaders")) {
              // do not follow references to core cache keys
              return 0;
            }
            return super.accumulateObject(o, shallowSize, fieldValues, queue);
          }
        };

    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    Document doc = new Document();
    final int numDocs = atLeast(100);
    for (int i = 0; i < numDocs; ++i) {
      w.addDocument(doc);
    }
    final DirectoryReader reader = w.getReader();
    final IndexSearcher searcher = new IndexSearcher(reader);
    searcher.setQueryCache(queryCache);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    final int numQueries = atLeast(1000);
    for (int i = 0; i < numQueries; ++i) {
      final Query query = new DummyQuery();
      searcher.search(new ConstantScoreQuery(query), 1);
    }
    assertTrue(queryCache.getCacheCount() > 0);

    final long actualRamBytesUsed = RamUsageTester.ramUsed(queryCache, acc);
    final long expectedRamBytesUsed = queryCache.ramBytesUsed();
    // error < 30%
    assertEquals(
        (double) actualRamBytesUsed,
        (double) expectedRamBytesUsed,
        30.d * actualRamBytesUsed / 100.d);

    reader.close();
    w.close();
    dir.close();
  }

  /** DummyQuery with Accountable, pretending to be a memory-eating query */
  private static class AccountableDummyQuery extends DummyQuery implements Accountable {

    @Override
    public long ramBytesUsed() {
      return 10 * QUERY_DEFAULT_RAM_BYTES_USED;
    }
  }

  public void testCachingAccountableQuery() throws IOException {
    final LRUQueryCache queryCache =
        new LRUQueryCache(1000000, 10000000, _ -> true, Float.POSITIVE_INFINITY);

    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    Document doc = new Document();
    final int numDocs = atLeast(100);
    for (int i = 0; i < numDocs; ++i) {
      w.addDocument(doc);
    }
    final DirectoryReader reader = w.getReader();
    final IndexSearcher searcher = new IndexSearcher(reader);
    searcher.setQueryCache(queryCache);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    final int numQueries = random().nextInt(100) + 100;
    for (int i = 0; i < numQueries; ++i) {
      final Query query = new AccountableDummyQuery();
      searcher.count(query);
    }
    long queryRamBytesUsed = numQueries * (10 * QUERY_DEFAULT_RAM_BYTES_USED);
    // make sure the query cache reflects the big queries
    assertTrue(queryCache.ramBytesUsed() > queryRamBytesUsed);

    reader.close();
    w.close();
    dir.close();
  }

  public void testConsistencyWithAccountableQueries() throws IOException {
    var queryCache = new LRUQueryCache(1, 10000000, _ -> true, Float.POSITIVE_INFINITY);

    var dir = newDirectory();
    var writer = new RandomIndexWriter(random(), dir);
    writer.addDocument(new Document());
    var reader = writer.getReader();
    var searcher = new IndexSearcher(reader);
    searcher.setQueryCache(queryCache);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    queryCache.assertConsistent();

    var accountableQuery = new AccountableDummyQuery();
    searcher.count(accountableQuery);
    var expectedRamBytesUsed =
        HASHTABLE_RAM_BYTES_PER_ENTRY
            + LINKED_HASHTABLE_RAM_BYTES_PER_ENTRY
            + accountableQuery.ramBytesUsed()
            + queryCache.getChildResources().iterator().next().ramBytesUsed();
    assertEquals(expectedRamBytesUsed, queryCache.ramBytesUsed());
    queryCache.assertConsistent();

    queryCache.clearQuery(accountableQuery);
    assertEquals(HASHTABLE_RAM_BYTES_PER_ENTRY, queryCache.ramBytesUsed());
    queryCache.assertConsistent();

    queryCache.clearCoreCacheKey(
        reader.getContext().leaves().get(0).reader().getCoreCacheHelper().getKey());
    assertEquals(0, queryCache.ramBytesUsed());
    queryCache.assertConsistent();

    reader.close();
    writer.close();
    dir.close();
  }

  public void testOnUse() throws IOException {
    final LRUQueryCache queryCache =
        new LRUQueryCache(
            1 + random().nextInt(5),
            1 + random().nextInt(1000),
            _ -> random().nextBoolean(),
            Float.POSITIVE_INFINITY);

    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);

    Document doc = new Document();
    StringField f = new StringField("color", "", Store.NO);
    doc.add(f);
    final int numDocs = atLeast(10);
    for (int i = 0; i < numDocs; ++i) {
      f.setStringValue(
          RandomPicks.randomFrom(random(), Arrays.asList("red", "blue", "green", "yellow")));
      w.addDocument(doc);
      if (random().nextBoolean()) {
        w.getReader().close();
      }
    }
    final DirectoryReader reader = w.getReader();
    final IndexSearcher searcher = new IndexSearcher(reader);

    final Map<Query, Integer> actualCounts = new HashMap<>();
    final Map<Query, Integer> expectedCounts = new HashMap<>();

    final QueryCachingPolicy countingPolicy =
        new QueryCachingPolicy() {

          @Override
          public boolean shouldCache(Query query) throws IOException {
            return random().nextBoolean();
          }

          @Override
          public void onUse(Query query) {
            expectedCounts.put(query, 1 + expectedCounts.getOrDefault(query, 0));
          }
        };

    Query[] queries = new Query[10 + random().nextInt(10)];
    for (int i = 0; i < queries.length; ++i) {
      queries[i] =
          new BoostQuery(
              new TermQuery(
                  new Term(
                      "color",
                      RandomPicks.randomFrom(
                          random(), Arrays.asList("red", "blue", "green", "yellow")))),
              random().nextFloat());
    }

    searcher.setQueryCache(queryCache);
    searcher.setQueryCachingPolicy(countingPolicy);
    for (int i = 0; i < 20; ++i) {
      final int idx = random().nextInt(queries.length);
      searcher.search(new ConstantScoreQuery(queries[idx]), 1);
      Query cacheKey = queries[idx];
      while (cacheKey instanceof BoostQuery) {
        cacheKey = ((BoostQuery) cacheKey).getQuery();
      }
      actualCounts.put(cacheKey, 1 + actualCounts.getOrDefault(cacheKey, 0));
    }

    assertEquals(actualCounts, expectedCounts);

    reader.close();
    w.close();
    dir.close();
  }

  public void testStats() throws IOException {
    final LRUQueryCache queryCache = new LRUQueryCache(1, 10000000, _ -> true, 1);

    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);

    final List<String> colors = Arrays.asList("blue", "red", "green", "yellow");

    Document doc = new Document();
    StringField f = new StringField("color", "", Store.NO);
    doc.add(f);
    for (int i = 0; i < 10; ++i) {
      f.setStringValue(RandomPicks.randomFrom(random(), colors));
      w.addDocument(doc);
      if (random().nextBoolean()) {
        w.getReader().close();
      }
    }

    final DirectoryReader reader = w.getReader();
    final int segmentCount = reader.leaves().size();
    final IndexSearcher searcher = new IndexSearcher(reader);
    final Query query = new TermQuery(new Term("color", "red"));
    final Query query2 = new TermQuery(new Term("color", "blue"));

    searcher.setQueryCache(queryCache);
    // first pass, lookups without caching that all miss
    searcher.setQueryCachingPolicy(NEVER_CACHE);
    for (int i = 0; i < 10; ++i) {
      searcher.search(new ConstantScoreQuery(query), 1);
    }
    assertEquals(10 * segmentCount, queryCache.getTotalCount());
    assertEquals(0, queryCache.getHitCount());
    assertEquals(10 * segmentCount, queryCache.getMissCount());
    assertEquals(0, queryCache.getCacheCount());
    assertEquals(0, queryCache.getEvictionCount());
    assertEquals(0, queryCache.getCacheSize());

    // second pass, lookups + caching, only the first one is a miss
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);
    for (int i = 0; i < 10; ++i) {
      searcher.search(new ConstantScoreQuery(query), 1);
    }
    assertEquals(20 * segmentCount, queryCache.getTotalCount());
    assertEquals(9 * segmentCount, queryCache.getHitCount());
    assertEquals(11 * segmentCount, queryCache.getMissCount());
    assertEquals(1 * segmentCount, queryCache.getCacheCount());
    assertEquals(0, queryCache.getEvictionCount());
    assertEquals(1 * segmentCount, queryCache.getCacheSize());

    // third pass lookups without caching, we only have hits
    searcher.setQueryCachingPolicy(NEVER_CACHE);
    for (int i = 0; i < 10; ++i) {
      searcher.search(new ConstantScoreQuery(query), 1);
    }
    assertEquals(30 * segmentCount, queryCache.getTotalCount());
    assertEquals(19 * segmentCount, queryCache.getHitCount());
    assertEquals(11 * segmentCount, queryCache.getMissCount());
    assertEquals(1 * segmentCount, queryCache.getCacheCount());
    assertEquals(0, queryCache.getEvictionCount());
    assertEquals(1 * segmentCount, queryCache.getCacheSize());

    // fourth pass with a different filter which will trigger evictions since the size is 1
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);
    for (int i = 0; i < 10; ++i) {
      searcher.search(new ConstantScoreQuery(query2), 1);
    }
    assertEquals(40 * segmentCount, queryCache.getTotalCount());
    assertEquals(28 * segmentCount, queryCache.getHitCount());
    assertEquals(12 * segmentCount, queryCache.getMissCount());
    assertEquals(2 * segmentCount, queryCache.getCacheCount());
    assertEquals(1 * segmentCount, queryCache.getEvictionCount());
    assertEquals(1 * segmentCount, queryCache.getCacheSize());

    // now close, causing evictions due to the closing of segment cores
    reader.close();
    w.close();
    assertEquals(40 * segmentCount, queryCache.getTotalCount());
    assertEquals(28 * segmentCount, queryCache.getHitCount());
    assertEquals(12 * segmentCount, queryCache.getMissCount());
    assertEquals(2 * segmentCount, queryCache.getCacheCount());
    assertEquals(2 * segmentCount, queryCache.getEvictionCount());
    assertEquals(0, queryCache.getCacheSize());

    dir.close();
  }

  public void testFineGrainedStats() throws IOException {
    Directory dir1 = newDirectory();
    final RandomIndexWriter w1 = new RandomIndexWriter(random(), dir1);
    Directory dir2 = newDirectory();
    final RandomIndexWriter w2 = new RandomIndexWriter(random(), dir2);

    final List<String> colors = Arrays.asList("blue", "red", "green", "yellow");

    Document doc = new Document();
    StringField f = new StringField("color", "", Store.NO);
    doc.add(f);
    for (RandomIndexWriter w : Arrays.asList(w1, w2)) {
      for (int i = 0; i < 10; ++i) {
        f.setStringValue(RandomPicks.randomFrom(random(), colors));
        w.addDocument(doc);
        if (random().nextBoolean()) {
          w.getReader().close();
        }
      }
    }

    final DirectoryReader reader1 = w1.getReader();
    final int segmentCount1 = reader1.leaves().size();
    final IndexSearcher searcher1 = new IndexSearcher(reader1);

    final DirectoryReader reader2 = w2.getReader();
    final int segmentCount2 = reader2.leaves().size();
    final IndexSearcher searcher2 = new IndexSearcher(reader2);

    final Map<IndexReader.CacheKey, Integer> indexId = new HashMap<>();
    for (LeafReaderContext ctx : reader1.leaves()) {
      indexId.put(ctx.reader().getCoreCacheHelper().getKey(), 1);
    }
    for (LeafReaderContext ctx : reader2.leaves()) {
      indexId.put(ctx.reader().getCoreCacheHelper().getKey(), 2);
    }

    final AtomicLong hitCount1 = new AtomicLong();
    final AtomicLong hitCount2 = new AtomicLong();
    final AtomicLong missCount1 = new AtomicLong();
    final AtomicLong missCount2 = new AtomicLong();

    final AtomicLong ramBytesUsage = new AtomicLong();
    final AtomicLong cacheSize = new AtomicLong();

    final LRUQueryCache queryCache =
        new LRUQueryCache(2, 10000000, _ -> true, 1) {
          @Override
          protected void onHit(Object readerCoreKey, Query query) {
            super.onHit(readerCoreKey, query);
            switch (indexId.get(readerCoreKey)) {
              case 1:
                hitCount1.incrementAndGet();
                break;
              case 2:
                hitCount2.incrementAndGet();
                break;
              default:
                throw new AssertionError();
            }
          }

          @Override
          protected void onMiss(Object readerCoreKey, Query query) {
            super.onMiss(readerCoreKey, query);
            switch (indexId.get(readerCoreKey)) {
              case 1:
                missCount1.incrementAndGet();
                break;
              case 2:
                missCount2.incrementAndGet();
                break;
              default:
                throw new AssertionError();
            }
          }

          @Override
          protected void onQueryCache(Query query, long ramBytesUsed) {
            super.onQueryCache(query, ramBytesUsed);
            assertNotNull("cached query is null", query);
            ramBytesUsage.addAndGet(ramBytesUsed);
          }

          @Override
          protected void onQueryEviction(Query query, long ramBytesUsed) {
            super.onQueryEviction(query, ramBytesUsed);
            assertNotNull("evicted query is null", query);
            ramBytesUsage.addAndGet(-ramBytesUsed);
          }

          @Override
          protected void onDocIdSetCache(Object readerCoreKey, long ramBytesUsed) {
            super.onDocIdSetCache(readerCoreKey, ramBytesUsed);
            ramBytesUsage.addAndGet(ramBytesUsed);
            cacheSize.incrementAndGet();
          }

          @Override
          protected void onDocIdSetEviction(
              Object readerCoreKey, int numEntries, long sumRamBytesUsed) {
            super.onDocIdSetEviction(readerCoreKey, numEntries, sumRamBytesUsed);
            ramBytesUsage.addAndGet(-sumRamBytesUsed);
            cacheSize.addAndGet(-numEntries);
          }

          @Override
          protected void onClear() {
            super.onClear();
            ramBytesUsage.set(0);
            cacheSize.set(0);
          }
        };

    final Query query = new TermQuery(new Term("color", "red"));
    final Query query2 = new TermQuery(new Term("color", "blue"));
    final Query query3 = new TermQuery(new Term("color", "green"));

    for (IndexSearcher searcher : Arrays.asList(searcher1, searcher2)) {
      searcher.setQueryCache(queryCache);
      searcher.setQueryCachingPolicy(ALWAYS_CACHE);
    }

    // search on searcher1
    for (int i = 0; i < 10; ++i) {
      searcher1.search(new ConstantScoreQuery(query), 1);
    }
    assertEquals(9 * segmentCount1, hitCount1.longValue());
    assertEquals(0, hitCount2.longValue());
    assertEquals(segmentCount1, missCount1.longValue());
    assertEquals(0, missCount2.longValue());

    // then on searcher2
    for (int i = 0; i < 20; ++i) {
      searcher2.search(new ConstantScoreQuery(query2), 1);
    }
    assertEquals(9 * segmentCount1, hitCount1.longValue());
    assertEquals(19 * segmentCount2, hitCount2.longValue());
    assertEquals(segmentCount1, missCount1.longValue());
    assertEquals(segmentCount2, missCount2.longValue());

    // now on searcher1 again to trigger evictions
    for (int i = 0; i < 30; ++i) {
      searcher1.search(new ConstantScoreQuery(query3), 1);
    }
    assertEquals(segmentCount1, queryCache.getEvictionCount());
    assertEquals(38 * segmentCount1, hitCount1.longValue());
    assertEquals(19 * segmentCount2, hitCount2.longValue());
    assertEquals(2 * segmentCount1, missCount1.longValue());
    assertEquals(segmentCount2, missCount2.longValue());

    // check that the recomputed stats are the same as those reported by the cache
    assertEquals(
        queryCache.ramBytesUsed(),
        (segmentCount1 + segmentCount2) * HASHTABLE_RAM_BYTES_PER_ENTRY
            + ramBytesUsage.longValue());
    assertEquals(queryCache.getCacheSize(), cacheSize.longValue());

    reader1.close();
    reader2.close();
    w1.close();
    w2.close();

    assertEquals(queryCache.ramBytesUsed(), ramBytesUsage.longValue());
    assertEquals(0, cacheSize.longValue());

    queryCache.clear();
    assertEquals(0, ramBytesUsage.longValue());
    assertEquals(0, cacheSize.longValue());

    dir1.close();
    dir2.close();
  }

  public void testUseRewrittenQueryAsCacheKey() throws IOException {
    final Query expectedCacheKey = new TermQuery(new Term("foo", "bar"));
    final BooleanQuery.Builder query = new BooleanQuery.Builder();
    query.add(new BoostQuery(expectedCacheKey, 42f), Occur.MUST);

    final LRUQueryCache queryCache =
        new LRUQueryCache(1000000, 10000000, _ -> random().nextBoolean(), Float.POSITIVE_INFINITY);
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    Document doc = new Document();
    doc.add(new StringField("foo", "bar", Store.YES));
    w.addDocument(doc);
    w.commit();
    final IndexReader reader = w.getReader();
    final IndexSearcher searcher = newSearcher(reader);
    w.close();

    final QueryCachingPolicy policy =
        new QueryCachingPolicy() {

          @Override
          public boolean shouldCache(Query query) throws IOException {
            assertEquals(expectedCacheKey, query);
            return true;
          }

          @Override
          public void onUse(Query query) {
            assertEquals(expectedCacheKey, query);
          }
        };

    searcher.setQueryCache(queryCache);
    searcher.setQueryCachingPolicy(policy);
    searcher.search(query.build(), DummyTotalHitCountCollector.createManager());

    reader.close();
    dir.close();
  }

  public void testBooleanQueryCachesSubClauses() throws IOException {
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    Document doc = new Document();
    doc.add(new StringField("foo", "bar", Store.YES));
    doc.add(new StringField("foo", "quux", Store.YES));
    w.addDocument(doc);
    w.commit();
    final IndexReader reader = w.getReader();
    final IndexSearcher searcher = newSearcher(reader);
    w.close();

    final LRUQueryCache queryCache =
        new LRUQueryCache(1000000, 10000000, _ -> true, Float.POSITIVE_INFINITY);
    searcher.setQueryCache(queryCache);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    BooleanQuery.Builder bq = new BooleanQuery.Builder();
    TermQuery must = new TermQuery(new Term("foo", "bar"));
    TermQuery filter = new TermQuery(new Term("foo", "quux"));
    TermQuery mustNot = new TermQuery(new Term("foo", "foo"));
    bq.add(must, Occur.MUST);
    bq.add(filter, Occur.FILTER);
    bq.add(mustNot, Occur.MUST_NOT);

    // same bq but with FILTER instead of MUST
    BooleanQuery.Builder bq2 = new BooleanQuery.Builder();
    bq2.add(must, Occur.FILTER);
    bq2.add(filter, Occur.FILTER);
    bq2.add(mustNot, Occur.MUST_NOT);

    assertEquals(Collections.emptySet(), new HashSet<>(queryCache.cachedQueries()));
    searcher.search(bq.build(), 1);
    assertEquals(
        new HashSet<>(Arrays.asList(filter, mustNot)), new HashSet<>(queryCache.cachedQueries()));

    queryCache.clear();
    assertEquals(Collections.emptySet(), new HashSet<>(queryCache.cachedQueries()));
    searcher.search(new ConstantScoreQuery(bq.build()), 1);
    assertEquals(
        new HashSet<>(Arrays.asList(bq2.build(), must, filter, mustNot)),
        new HashSet<>(queryCache.cachedQueries()));

    reader.close();
    dir.close();
  }

  public void testQuerySizeBytesAreCached() throws IOException {
    try (Directory dir = newDirectory();
        RandomIndexWriter w = new RandomIndexWriter(random(), dir)) {
      Document doc = new Document();
      doc.add(new StringField("foo", "bar", Store.YES));
      doc.add(new StringField("foo", "quux", Store.YES));
      w.addDocument(doc);
      w.commit();
      final IndexReader reader = w.getReader();
      final IndexSearcher searcher = newSearcher(reader);
      final LRUQueryCache queryCache =
          new LRUQueryCache(1000000, 10000000, _ -> true, Float.POSITIVE_INFINITY);
      searcher.setQueryCache(queryCache);
      searcher.setQueryCachingPolicy(ALWAYS_CACHE);
      StringBuilder sb = new StringBuilder();
      sb.append("a".repeat(100));
      String term = sb.toString();
      TermQuery termQuery = new TermQuery(new Term("foo", term));
      long expectedQueryInBytes =
          LINKED_HASHTABLE_RAM_BYTES_PER_ENTRY + RamUsageEstimator.sizeOf(termQuery, 32);
      searcher.search(new ConstantScoreQuery(termQuery), 1);

      assertEquals(1, queryCache.getUniqueQueries().size());
      assertEquals(
          expectedQueryInBytes, queryCache.getUniqueQueries().get(termQuery).queryRamBytesUsed());
      reader.close();
    }
  }

  public void testCacheRamBytesWithALargeTermQuery() throws IOException {
    try (Directory dir = newDirectory();
        RandomIndexWriter w = new RandomIndexWriter(random(), dir)) {
      Document doc = new Document();
      doc.add(new StringField("foo", "bar", Store.YES));
      doc.add(new StringField("foo", "quux", Store.YES));
      w.addDocument(doc);
      w.commit();
      final IndexReader reader = w.getReader();
      final IndexSearcher searcher = newSearcher(reader);
      final LRUQueryCache queryCache =
          new LRUQueryCache(1000000, 10000000, _ -> true, Float.POSITIVE_INFINITY);
      searcher.setQueryCache(queryCache);
      searcher.setQueryCachingPolicy(ALWAYS_CACHE);
      StringBuilder sb = new StringBuilder();
      // Create a large string for the field value so it certainly exceeds the default query size we
      // use ie 1024 bytes.
      sb.append("a".repeat(1200));
      String longTerm = sb.toString();
      TermQuery must = new TermQuery(new Term("foo", longTerm));
      long queryInBytes = RamUsageEstimator.sizeOf(must, 32);
      assertTrue(queryInBytes > QUERY_DEFAULT_RAM_BYTES_USED);
      searcher.search(new ConstantScoreQuery(must), 1);

      assertEquals(1, queryCache.cachedQueries().size());
      assertTrue(queryCache.ramBytesUsed() >= queryInBytes);
      reader.close();
    }
  }

  private static Term randomTerm() {
    final String term = RandomPicks.randomFrom(random(), Arrays.asList("foo", "bar", "baz"));
    return new Term("foo", term);
  }

  private static Query buildRandomQuery(int level) {
    if (level == 10) {
      // at most 10 levels
      return new MatchAllDocsQuery();
    }
    switch (random().nextInt(6)) {
      case 0:
        return new TermQuery(randomTerm());
      case 1:
        BooleanQuery.Builder bq = new BooleanQuery.Builder();
        final int numClauses = TestUtil.nextInt(random(), 1, 3);
        int numShould = 0;
        for (int i = 0; i < numClauses; ++i) {
          final Occur occur = RandomPicks.randomFrom(random(), Occur.values());
          bq.add(buildRandomQuery(level + 1), occur);
          if (occur == Occur.SHOULD) {
            numShould++;
          }
        }
        bq.setMinimumNumberShouldMatch(TestUtil.nextInt(random(), 0, numShould));
        return bq.build();
      case 2:
        Term t1 = randomTerm();
        Term t2 = randomTerm();
        PhraseQuery pq = new PhraseQuery(random().nextInt(2), t1.field(), t1.bytes(), t2.bytes());
        return pq;
      case 3:
        return new MatchAllDocsQuery();
      case 4:
        return new ConstantScoreQuery(buildRandomQuery(level + 1));
      case 5:
        List<Query> disjuncts = new ArrayList<>();
        final int numQueries = TestUtil.nextInt(random(), 1, 3);
        for (int i = 0; i < numQueries; ++i) {
          disjuncts.add(buildRandomQuery(level + 1));
        }
        return new DisjunctionMaxQuery(disjuncts, random().nextFloat());
      default:
        throw new AssertionError();
    }
  }

  public void testRandom() throws IOException {
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    Document doc = new Document();
    TextField f = new TextField("foo", "foo", Store.NO);
    doc.add(f);
    w.addDocument(doc);
    IndexReader reader = w.getReader();

    final int maxSize;
    final long maxRamBytesUsed;
    final int iters;

    if (TEST_NIGHTLY) {
      maxSize = TestUtil.nextInt(random(), 1, 10000);
      maxRamBytesUsed = TestUtil.nextLong(random(), 1, 5000000);
      iters = atLeast(20000);
    } else {
      maxSize = TestUtil.nextInt(random(), 1, 1000);
      maxRamBytesUsed = TestUtil.nextLong(random(), 1, 500000);
      iters = atLeast(2000);
    }

    final LRUQueryCache queryCache =
        new LRUQueryCache(
            maxSize, maxRamBytesUsed, _ -> random().nextBoolean(), Float.POSITIVE_INFINITY);
    IndexSearcher uncachedSearcher = null;
    IndexSearcher cachedSearcher = null;

    for (int i = 0; i < iters; ++i) {
      if (i == 0 || random().nextInt(100) == 1) {
        reader.close();
        f.setStringValue(RandomPicks.randomFrom(random(), Arrays.asList("foo", "bar", "bar baz")));
        w.addDocument(doc);
        if (random().nextBoolean()) {
          w.deleteDocuments(buildRandomQuery(0));
        }
        reader = w.getReader();
        uncachedSearcher = newSearcher(reader);
        uncachedSearcher.setQueryCache(null);
        cachedSearcher = newSearcher(reader);
        cachedSearcher.setQueryCache(queryCache);
        cachedSearcher.setQueryCachingPolicy(ALWAYS_CACHE);
      }
      final Query q = buildRandomQuery(0);
      /*
       * Counts are the same. If the query has already been cached
       * this'll use the O(1) Weight#count method.
       */
      assertEquals(uncachedSearcher.count(q), cachedSearcher.count(q));
      /*
       * Just to make sure we can iterate every time also check that the
       * same docs are returned in the same order.
       */
      int size = 1 + random().nextInt(1000);
      CheckHits.checkEqual(
          q, uncachedSearcher.search(q, size).scoreDocs, cachedSearcher.search(q, size).scoreDocs);
      if (rarely()) {
        queryCache.assertConsistent();
      }
    }
    queryCache.assertConsistent();
    w.close();
    reader.close();
    dir.close();
    queryCache.assertConsistent();
  }

  private static class BadQuery extends Query {

    int[] i = new int[] {42}; // an array so that clone keeps the reference

    @Override
    public Weight createWeight(IndexSearcher searcher, ScoreMode scoreMode, float boost)
        throws IOException {
      return new ConstantScoreWeight(this, boost) {
        @Override
        public ScorerSupplier scorerSupplier(LeafReaderContext context) throws IOException {
          return null;
        }

        @Override
        public boolean isCacheable(LeafReaderContext ctx) {
          return true;
        }
      };
    }

    @Override
    public void visit(QueryVisitor visitor) {}

    @Override
    public String toString(String field) {
      return "BadQuery";
    }

    @Override
    public int hashCode() {
      return classHash() ^ i[0];
    }

    @Override
    public boolean equals(Object other) {
      return sameClassAs(other) && i[0] == ((BadQuery) other).i[0];
    }
  }

  @AwaitsFix(bugUrl = "https://issues.apache.org/jira/browse/LUCENE-7604")
  public void testDetectMutatedQueries() throws IOException {
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    w.addDocument(new Document());
    IndexReader reader = w.getReader();

    // size of 1 so that 2nd query evicts from the cache
    final LRUQueryCache queryCache =
        new LRUQueryCache(1, 10000, _ -> true, Float.POSITIVE_INFINITY);
    final IndexSearcher searcher = newSearcher(reader);
    searcher.setQueryCache(queryCache);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    BadQuery query = new BadQuery();
    searcher.search(query, DummyTotalHitCountCollector.createManager());
    query.i[0] += 1; // change the hashCode!

    try {
      // trigger an eviction
      searcher.search(new MatchAllDocsQuery(), DummyTotalHitCountCollector.createManager());
      fail();
    } catch (ConcurrentModificationException _) {
      // expected
    } catch (RuntimeException e) {
      // expected: wrapped when executor is in use
      Throwable cause = e.getCause();
      assertTrue(cause instanceof ExecutionException);
      assertTrue(cause.getCause() instanceof ConcurrentModificationException);
    }

    IOUtils.close(w, reader, dir);
  }

  public void testRefuseToCacheTooLargeEntries() throws IOException {
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    for (int i = 0; i < 100; ++i) {
      w.addDocument(new Document());
    }
    IndexReader reader = w.getReader();

    // size of 1 byte
    final LRUQueryCache queryCache =
        new LRUQueryCache(1, 1, _ -> random().nextBoolean(), Float.POSITIVE_INFINITY);
    final IndexSearcher searcher = newSearcher(reader);
    searcher.setQueryCache(queryCache);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    searcher.count(new MatchAllDocsQuery());
    assertEquals(0, queryCache.getCacheCount());
    assertEquals(0, queryCache.getEvictionCount());

    reader.close();
    w.close();
    dir.close();
  }

  /**
   * Tests CachingWrapperWeight.scorer() propagation of {@link QueryCachingPolicy#onUse(Query)} when
   * the first segment is skipped.
   *
   * <p>#f:foo #f:bar causes all frequencies to increment #f:bar #f:foo does not increment the
   * frequency for f:foo
   */
  public void testOnUseWithRandomFirstSegmentSkipping() throws IOException {
    try (final Directory directory = newDirectory()) {
      try (final RandomIndexWriter indexWriter =
          new RandomIndexWriter(
              random(), directory, newIndexWriterConfig().setMergePolicy(NoMergePolicy.INSTANCE))) {
        Document doc = new Document();
        doc.add(new StringField("f", "bar", Store.NO));
        indexWriter.addDocument(doc);
        if (random().nextBoolean()) {
          indexWriter.getReader().close();
        }
        doc = new Document();
        doc.add(new StringField("f", "foo", Store.NO));
        doc.add(new StringField("f", "bar", Store.NO));
        indexWriter.addDocument(doc);
        indexWriter.commit();
      }
      try (final IndexReader indexReader = DirectoryReader.open(directory)) {
        final FrequencyCountingPolicy policy = new FrequencyCountingPolicy();
        final IndexSearcher indexSearcher = new IndexSearcher(indexReader);
        indexSearcher.setQueryCache(
            new LRUQueryCache(100, 10240, _ -> random().nextBoolean(), Float.POSITIVE_INFINITY));
        indexSearcher.setQueryCachingPolicy(policy);
        final Query foo = new TermQuery(new Term("f", "foo"));
        final Query bar = new TermQuery(new Term("f", "bar"));
        final BooleanQuery.Builder query = new BooleanQuery.Builder();
        if (random().nextBoolean()) {
          query.add(foo, Occur.FILTER);
          query.add(bar, Occur.FILTER);
        } else {
          query.add(bar, Occur.FILTER);
          query.add(foo, Occur.FILTER);
        }
        indexSearcher.search(query.build(), DummyTotalHitCountCollector.createManager());
        assertEquals(1, policy.frequency(query.build()));
        assertEquals(1, policy.frequency(foo));
        assertEquals(1, policy.frequency(bar));
      }
    }
  }

  private static class FrequencyCountingPolicy implements QueryCachingPolicy {
    private final Map<Query, AtomicInteger> counts = new HashMap<>();

    public int frequency(final Query query) {
      AtomicInteger count;
      synchronized (counts) {
        count = counts.get(query);
      }
      return count != null ? count.get() : 0;
    }

    @Override
    public void onUse(final Query query) {
      AtomicInteger count;
      synchronized (counts) {
        count = counts.computeIfAbsent(query, _ -> new AtomicInteger());
      }
      count.incrementAndGet();
    }

    @Override
    public boolean shouldCache(Query query) throws IOException {
      return true;
    }
  }

  private static class WeightWrapper extends FilterWeight {

    private final AtomicBoolean scorerCalled;
    private final AtomicBoolean bulkScorerCalled;

    protected WeightWrapper(Weight in, AtomicBoolean scorerCalled, AtomicBoolean bulkScorerCalled) {
      super(in);
      this.scorerCalled = scorerCalled;
      this.bulkScorerCalled = bulkScorerCalled;
    }

    @Override
    public ScorerSupplier scorerSupplier(LeafReaderContext context) throws IOException {
      final var scorerSupplier = in.scorerSupplier(context);
      if (scorerSupplier == null) {
        return null;
      }
      final var scorer = scorerSupplier.get(Long.MAX_VALUE);
      return new ScorerSupplier() {
        @Override
        public Scorer get(long leadCost) throws IOException {
          scorerCalled.set(true);
          return scorer;
        }

        @Override
        public BulkScorer bulkScorer() throws IOException {
          bulkScorerCalled.set(true);
          return in.bulkScorer(context);
        }

        @Override
        public long cost() {
          return scorer.iterator().cost();
        }
      };
    }
  }

  public void testPropagateBulkScorer() throws IOException {
    Directory dir = newDirectory();
    RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    w.addDocument(new Document());
    IndexReader reader = w.getReader();
    w.close();
    IndexSearcher searcher = newSearcher(reader);
    LeafReaderContext leaf = searcher.getIndexReader().leaves().get(0);
    AtomicBoolean scorerCalled = new AtomicBoolean();
    AtomicBoolean bulkScorerCalled = new AtomicBoolean();
    LRUQueryCache cache = new LRUQueryCache(1, Long.MAX_VALUE, _ -> true, Float.POSITIVE_INFINITY);

    // test that the bulk scorer is propagated when a scorer should not be cached
    Weight weight = searcher.createWeight(new MatchAllDocsQuery(), ScoreMode.COMPLETE_NO_SCORES, 1);
    weight = new WeightWrapper(weight, scorerCalled, bulkScorerCalled);
    weight = cache.doCache(weight, NEVER_CACHE);
    weight.bulkScorer(leaf);
    assertTrue(bulkScorerCalled.get());
    assertFalse(scorerCalled.get());
    assertEquals(0, cache.getCacheCount());

    searcher.getIndexReader().close();
    dir.close();
  }

  public void testEvictEmptySegmentCache() throws IOException {
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    w.addDocument(new Document());
    final DirectoryReader reader = w.getReader();
    final IndexSearcher searcher = newSearcher(reader);
    final LRUQueryCache queryCache =
        new LRUQueryCache(2, 100000, _ -> true, Float.POSITIVE_INFINITY) {
          @Override
          protected void onDocIdSetEviction(
              Object readerCoreKey, int numEntries, long sumRamBytesUsed) {
            super.onDocIdSetEviction(readerCoreKey, numEntries, sumRamBytesUsed);
            assertTrue(numEntries > 0);
          }
        };

    searcher.setQueryCache(queryCache);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    Query query = new DummyQuery();
    searcher.count(query);
    assertEquals(Collections.singletonList(query), queryCache.cachedQueries());
    queryCache.clearQuery(query);

    reader.close(); // make sure this does not trigger eviction of segment caches with no entries
    w.close();
    dir.close();
  }

  public void testMinSegmentSizePredicate() throws IOException {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = new IndexWriterConfig().setMergePolicy(NoMergePolicy.INSTANCE);
    IndexWriter w = new IndexWriter(dir, iwc);
    IntConsumer newSegment =
        numDocs -> {
          try {
            for (int i = 0; i < numDocs; i++) {
              w.addDocument(new Document());
            }
            w.flush();
          } catch (IOException e) {
            throw new UncheckedIOException(e);
          }
        };
    newSegment.accept(1);
    newSegment.accept(4);
    newSegment.accept(10);
    newSegment.accept(35);
    int numLargeSegments = RandomNumbers.randomIntBetween(random(), 2, 40);
    for (int i = 0; i < numLargeSegments; i++) {
      newSegment.accept(RandomNumbers.randomIntBetween(random(), 50, 55));
    }
    DirectoryReader reader = DirectoryReader.open(w);
    for (int i = 0; i < 3; i++) {
      var predicate =
          new LRUQueryCache.MinSegmentSizePredicate(
              RandomNumbers.randomIntBetween(random(), 1, Integer.MAX_VALUE));
      assertFalse(predicate.test(reader.leaves().get(i)));
    }
    for (int i = 3; i < reader.leaves().size(); i++) {
      var leaf = reader.leaves().get(i);
      var small =
          new LRUQueryCache.MinSegmentSizePredicate(
              RandomNumbers.randomIntBetween(random(), 60, Integer.MAX_VALUE));
      assertFalse(small.test(leaf));
      var big =
          new LRUQueryCache.MinSegmentSizePredicate(
              RandomNumbers.randomIntBetween(random(), 10, 30));
      assertTrue(big.test(leaf));
    }
    reader.close();
    w.close();
    dir.close();
  }

  // a reader whose sole purpose is to not be cacheable
  private static class DummyDirectoryReader extends FilterDirectoryReader {

    public DummyDirectoryReader(DirectoryReader in) throws IOException {
      super(
          in,
          new SubReaderWrapper() {
            @Override
            public LeafReader wrap(LeafReader reader) {
              return new FilterLeafReader(reader) {
                @Override
                public CacheHelper getCoreCacheHelper() {
                  return null;
                }

                @Override
                public CacheHelper getReaderCacheHelper() {
                  return null;
                }
              };
            }
          });
    }

    @Override
    protected DirectoryReader doWrapDirectoryReader(DirectoryReader in) throws IOException {
      return new DummyDirectoryReader(in);
    }

    @Override
    public CacheHelper getReaderCacheHelper() {
      return null;
    }
  }

  public void testReaderNotSuitedForCaching() throws IOException {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig().setMergePolicy(NoMergePolicy.INSTANCE);
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);
    w.addDocument(new Document());
    DirectoryReader reader = new DummyDirectoryReader(w.getReader());
    IndexSearcher searcher = newSearcher(reader);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    // don't cache if the reader does not expose a cache helper
    assertNull(reader.leaves().get(0).reader().getCoreCacheHelper());
    LRUQueryCache cache = new LRUQueryCache(2, 10000, _ -> true, Float.POSITIVE_INFINITY);
    searcher.setQueryCache(cache);
    assertEquals(0, searcher.count(new DummyQuery()));
    assertEquals(0, cache.getCacheCount());
    reader.close();
    w.close();
    dir.close();
  }

  // A query that returns null from Weight.getCacheHelper
  private static class NoCacheQuery extends Query {

    @Override
    public Weight createWeight(IndexSearcher searcher, ScoreMode scoreMode, float boost)
        throws IOException {
      return new Weight(this) {
        @Override
        public Explanation explain(LeafReaderContext context, int doc) throws IOException {
          return null;
        }

        @Override
        public ScorerSupplier scorerSupplier(LeafReaderContext context) throws IOException {
          return null;
        }

        @Override
        public boolean isCacheable(LeafReaderContext ctx) {
          return false;
        }
      };
    }

    @Override
    public void visit(QueryVisitor visitor) {}

    @Override
    public String toString(String field) {
      return "NoCacheQuery";
    }

    @Override
    public boolean equals(Object obj) {
      return sameClassAs(obj);
    }

    @Override
    public int hashCode() {
      return 0;
    }
  }

  public void testQueryNotSuitedForCaching() throws IOException {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig().setMergePolicy(NoMergePolicy.INSTANCE);
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);
    w.addDocument(new Document());
    DirectoryReader reader = w.getReader();
    IndexSearcher searcher = newSearcher(reader);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    LRUQueryCache cache = new LRUQueryCache(2, 10000, _ -> true, Float.POSITIVE_INFINITY);
    searcher.setQueryCache(cache);

    assertEquals(0, searcher.count(new NoCacheQuery()));
    assertEquals(0, cache.getCacheCount());

    // BooleanQuery wrapping an uncacheable query should also not be cached
    BooleanQuery bq =
        new BooleanQuery.Builder()
            .add(new NoCacheQuery(), Occur.MUST)
            .add(new TermQuery(new Term("field", "term")), Occur.MUST)
            .build();
    assertEquals(0, searcher.count(bq));
    assertEquals(0, cache.getCacheCount());

    reader.close();
    w.close();
    dir.close();
  }

  private static class DummyQuery2 extends Query {

    private final AtomicBoolean scorerCreated;

    DummyQuery2(AtomicBoolean scorerCreated) {
      this.scorerCreated = scorerCreated;
    }

    @Override
    public Weight createWeight(IndexSearcher searcher, ScoreMode scoreMode, float boost)
        throws IOException {
      return new ConstantScoreWeight(this, boost) {
        @Override
        public boolean isCacheable(LeafReaderContext ctx) {
          return true;
        }

        @Override
        public ScorerSupplier scorerSupplier(LeafReaderContext context) throws IOException {
          final var scorer = new ConstantScoreScorer(boost, scoreMode, DocIdSetIterator.all(1));
          return new ScorerSupplier() {
            @Override
            public Scorer get(long leadCost) throws IOException {
              scorerCreated.set(true);
              return scorer;
            }

            @Override
            public long cost() {
              return 1;
            }
          };
        }
      };
    }

    @Override
    public void visit(QueryVisitor visitor) {}

    @Override
    public boolean equals(Object other) {
      return sameClassAs(other);
    }

    @Override
    public int hashCode() {
      return 0;
    }

    @Override
    public String toString(String field) {
      return "DummyQuery2";
    }
  }

  public void testPropagatesScorerSupplier() throws IOException {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig().setMergePolicy(NoMergePolicy.INSTANCE);
    RandomIndexWriter w = new RandomIndexWriter(random(), dir, iwc);
    w.addDocument(new Document());
    DirectoryReader reader = w.getReader();
    IndexSearcher searcher = newSearcher(reader);
    searcher.setQueryCachingPolicy(NEVER_CACHE);

    LRUQueryCache cache = new LRUQueryCache(1, 1000);
    searcher.setQueryCache(cache);

    AtomicBoolean scorerCreated = new AtomicBoolean(false);
    Query query = new DummyQuery2(scorerCreated);
    Weight weight = searcher.createWeight(searcher.rewrite(query), ScoreMode.COMPLETE_NO_SCORES, 1);
    ScorerSupplier supplier = weight.scorerSupplier(searcher.getIndexReader().leaves().get(0));
    assertFalse(scorerCreated.get());
    supplier.get(random().nextLong() & 0x7FFFFFFFFFFFFFFFL);
    assertTrue(scorerCreated.get());

    reader.close();
    w.close();
    dir.close();
  }

  static class DVCacheQuery extends Query {

    final String field;

    AtomicInteger scorerCreatedCount = new AtomicInteger(0);

    DVCacheQuery(String field) {
      this.field = field;
    }

    @Override
    public String toString(String field) {
      return "DVCacheQuery";
    }

    @Override
    public boolean equals(Object obj) {
      return sameClassAs(obj);
    }

    @Override
    public int hashCode() {
      return 0;
    }

    @Override
    public Weight createWeight(IndexSearcher searcher, ScoreMode scoreMode, float boost)
        throws IOException {
      return new ConstantScoreWeight(this, 1) {
        @Override
        public ScorerSupplier scorerSupplier(LeafReaderContext context) throws IOException {
          return new ScorerSupplier() {
            @Override
            public Scorer get(long leadCost) throws IOException {
              scorerCreatedCount.incrementAndGet();
              return new ConstantScoreScorer(
                  1, scoreMode, DocIdSetIterator.all(context.reader().maxDoc()));
            }

            @Override
            public long cost() {
              return context.reader().maxDoc();
            }
          };
        }

        @Override
        public boolean isCacheable(LeafReaderContext ctx) {
          return DocValues.isCacheable(ctx, field);
        }
      };
    }

    @Override
    public void visit(QueryVisitor visitor) {}
  }

  public void testDocValuesUpdatesDontBreakCache() throws IOException {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig().setMergePolicy(NoMergePolicy.INSTANCE);
    IndexWriter w = new IndexWriter(dir, iwc);
    w.addDocument(new Document());
    w.commit();
    DirectoryReader reader = DirectoryReader.open(w);

    // IMPORTANT:
    // Don't use newSearcher(), because that will sometimes use an ExecutorService, and
    // we need to be single threaded to ensure that LRUQueryCache doesn't skip the cache
    // due to thread contention
    IndexSearcher searcher = new AssertingIndexSearcher(random(), reader);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    LRUQueryCache cache = new LRUQueryCache(1, 10000, _ -> true, Float.POSITIVE_INFINITY);
    searcher.setQueryCache(cache);

    DVCacheQuery query = new DVCacheQuery("field");
    assertEquals(1, searcher.count(query));
    assertEquals(1, query.scorerCreatedCount.get());
    assertEquals(1, searcher.count(query));
    assertEquals(1, query.scorerCreatedCount.get()); // should be cached

    Document doc = new Document();
    doc.add(new NumericDocValuesField("field", 1));
    doc.add(newTextField("text", "text", Store.NO));
    w.addDocument(doc);
    reader.close();
    reader = DirectoryReader.open(w);
    searcher =
        new AssertingIndexSearcher(random(), reader); // no newSearcher(reader) - see comment above
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);
    searcher.setQueryCache(cache);

    assertEquals(2, searcher.count(query));
    assertEquals(2, query.scorerCreatedCount.get()); // first segment cached

    reader.close();
    reader = DirectoryReader.open(w);
    searcher =
        new AssertingIndexSearcher(random(), reader); // no newSearcher(reader) - see comment above
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);
    searcher.setQueryCache(cache);

    assertEquals(2, searcher.count(query));
    assertEquals(2, query.scorerCreatedCount.get()); // both segments cached

    w.updateNumericDocValue(new Term("text", "text"), "field", 2L);
    reader.close();
    reader = DirectoryReader.open(w);
    searcher =
        new AssertingIndexSearcher(random(), reader); // no newSearcher(reader) - see comment above
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);
    searcher.setQueryCache(cache);

    assertEquals(2, searcher.count(query));
    assertEquals(
        3, query.scorerCreatedCount.get()); // second segment no longer cached due to DV update

    assertEquals(2, searcher.count(query));
    assertEquals(4, query.scorerCreatedCount.get()); // still no caching

    reader.close();
    w.close();
    dir.close();
  }

  public void testQueryCacheSoftUpdate() throws IOException {
    Directory dir = newDirectory();
    IndexWriterConfig iwc = newIndexWriterConfig().setSoftDeletesField("soft_delete");
    IndexWriter w = new IndexWriter(dir, iwc);
    LRUQueryCache queryCache =
        new LRUQueryCache(10, 1000 * 1000, _ -> true, Float.POSITIVE_INFINITY);
    IndexSearcher.setDefaultQueryCache(queryCache);
    IndexSearcher.setDefaultQueryCachingPolicy(ALWAYS_CACHE);

    SearcherManager sm = new SearcherManager(w, new SearcherFactory());

    Document doc = new Document();
    doc.add(new StringField("id", "1", org.apache.lucene.document.Field.Store.YES));
    w.addDocument(doc);

    doc = new Document();
    doc.add(new StringField("id", "2", org.apache.lucene.document.Field.Store.YES));
    w.addDocument(doc);

    sm.maybeRefreshBlocking();

    IndexSearcher searcher = sm.acquire();
    Query query =
        new BooleanQuery.Builder()
            .add(new TermQuery(new Term("id", "1")), BooleanClause.Occur.FILTER)
            .build();
    searcher.search(query, 10);
    assertEquals(1, queryCache.getCacheSize());
    assertEquals(0, queryCache.getEvictionCount());

    boolean softDelete = true;
    if (softDelete) {
      Document tombstone = new Document();
      tombstone.add(new NumericDocValuesField("soft_delete", 1));
      w.softUpdateDocument(
          new Term("id", "1"), tombstone, new NumericDocValuesField("soft_delete", 1));
      w.softUpdateDocument(
          new Term("id", "2"), tombstone, new NumericDocValuesField("soft_delete", 1));
    } else {
      w.deleteDocuments(new Term("id", "1"));
      w.deleteDocuments(new Term("id", "2"));
    }
    sm.maybeRefreshBlocking();
    // All docs in the first segment are deleted - we should drop it with the default merge policy.
    sm.release(searcher);
    assertEquals(0, queryCache.getCacheSize());
    assertEquals(1, queryCache.getEvictionCount());
    sm.close();
    w.close();
    dir.close();
  }

  public void testBulkScorerLocking() throws Exception {

    Directory dir = newDirectory();
    IndexWriterConfig iwc =
        newIndexWriterConfig()
            .setMergePolicy(NoMergePolicy.INSTANCE)
            // the test framework sometimes sets crazy low values, prevent this since we are
            // indexing many docs
            .setMaxBufferedDocs(-1);
    IndexWriter w = new IndexWriter(dir, iwc);

    final int numDocs = atLeast(10);
    Document emptyDoc = new Document();
    for (int d = 0; d < numDocs; ++d) {
      for (int i = random().nextInt(5000); i >= 0; --i) {
        w.addDocument(emptyDoc);
      }
      Document doc = new Document();
      for (String value : Arrays.asList("foo", "bar", "baz")) {
        if (random().nextBoolean()) {
          doc.add(new StringField("field", value, Store.NO));
        }
      }
    }
    for (int i = TestUtil.nextInt(random(), 3000, 5000); i >= 0; --i) {
      w.addDocument(emptyDoc);
    }
    if (random().nextBoolean()) {
      w.forceMerge(1);
    }

    DirectoryReader reader = DirectoryReader.open(w);
    DirectoryReader noCacheReader = new DummyDirectoryReader(reader);

    LRUQueryCache cache = new LRUQueryCache(1, 100000, _ -> true, Float.POSITIVE_INFINITY);
    IndexSearcher searcher = new AssertingIndexSearcher(random(), reader);
    searcher.setQueryCache(cache);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    Query query =
        new ConstantScoreQuery(
            new BooleanQuery.Builder()
                .add(new BoostQuery(new TermQuery(new Term("field", "foo")), 3), Occur.SHOULD)
                .add(new BoostQuery(new TermQuery(new Term("field", "bar")), 3), Occur.SHOULD)
                .add(new BoostQuery(new TermQuery(new Term("field", "baz")), 3), Occur.SHOULD)
                .build());

    searcher.search(query, 1);

    IndexSearcher noCacheHelperSearcher = new AssertingIndexSearcher(random(), noCacheReader);
    noCacheHelperSearcher.setQueryCache(cache);
    noCacheHelperSearcher.setQueryCachingPolicy(ALWAYS_CACHE);
    noCacheHelperSearcher.search(query, 1);

    Thread t =
        new Thread(
            () -> {
              try {
                noCacheReader.close();
                w.close();
                dir.close();
              } catch (Exception e) {
                throw new RuntimeException(e);
              }
            });
    t.start();
    t.join();
  }

  public void testSkipCachingForRangeQuery() throws IOException {
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    Document doc1 = new Document();
    doc1.add(new StringField("name", "tom", Store.YES));
    doc1.add(new LongPoint("age", 15));
    doc1.add(new SortedNumericDocValuesField("age", 15));
    Document doc2 = new Document();
    doc2.add(new StringField("name", "alice", Store.YES));
    doc2.add(new LongPoint("age", 20));
    doc2.add(new SortedNumericDocValuesField("age", 20));
    Document doc3 = new Document();
    doc3.add(new StringField("name", "steve", Store.YES));
    doc3.add(new LongPoint("age", 25));
    doc3.add(new SortedNumericDocValuesField("age", 25));
    w.addDocuments(Arrays.asList(doc1, doc2, doc3));
    final IndexReader reader = w.getReader();
    final IndexSearcher searcher = newSearcher(reader);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);
    w.close();

    // lead cost is 1, cost of subQuery1 is 1, cost of subQuery2 is 2
    BooleanQuery.Builder bq = new BooleanQuery.Builder();
    TermQuery subQuery1 = new TermQuery(new Term("name", "tom"));
    IndexOrDocValuesQuery subQuery2 =
        new IndexOrDocValuesQuery(
            LongPoint.newRangeQuery("age", 10, 20),
            SortedNumericDocValuesField.newSlowRangeQuery("age", 10, 20));
    BooleanQuery query = bq.add(subQuery1, Occur.FILTER).add(subQuery2, Occur.FILTER).build();
    Set<Query> cacheSet = new HashSet<>();

    // only term query is cached
    final LRUQueryCache partCache = new LRUQueryCache(1000000, 10000000, _ -> true, 1);
    searcher.setQueryCache(partCache);
    searcher.search(query, 1);
    cacheSet.add(subQuery1);
    assertEquals(cacheSet, new HashSet<>(partCache.cachedQueries()));

    // both queries are cached
    final LRUQueryCache allCache =
        new LRUQueryCache(1000000, 10000000, _ -> true, Float.POSITIVE_INFINITY);
    searcher.setQueryCache(allCache);
    searcher.search(query, 1);
    cacheSet.add(subQuery2);
    assertEquals(cacheSet, new HashSet<>(allCache.cachedQueries()));

    reader.close();
    dir.close();
  }

  public void testCountDelegation() throws IOException {
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    Document doc = new Document();
    doc.add(new StringField("foo", "bar", Store.NO));
    int numDocs = random().nextInt(100) + 20;
    for (int i = 0; i < numDocs; i++) {
      w.addDocument(doc);
    }
    final IndexReader reader = w.getReader();
    final IndexSearcher searcher = newSearcher(reader);
    searcher.setQueryCachingPolicy(ALWAYS_CACHE);

    Query q = new TermQuery(new Term("foo", "bar"));
    searcher.count(q); // add to cache

    Weight weight = searcher.createWeight(searcher.rewrite(q), ScoreMode.COMPLETE_NO_SCORES, 1);
    assertNotEquals(-1, weight.count(searcher.reader.leaves().get(0)));

    reader.close();
    w.close();
    dir.close();
  }

  public void testSkipCachingForTermQuery() throws IOException {
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    Document doc1 = new Document();
    doc1.add(new StringField("name", "tom", Store.YES));
    doc1.add(new StringField("hobby", "movie", Store.YES));
    Document doc2 = new Document();
    doc2.add(new StringField("name", "alice", Store.YES));
    doc2.add(new StringField("hobby", "book", Store.YES));
    Document doc3 = new Document();
    doc3.add(new StringField("name", "alice", Store.YES));
    doc3.add(new StringField("hobby", "movie", Store.YES));
    w.addDocuments(Arrays.asList(doc1, doc2, doc3));
    final IndexReader reader = w.getReader();
    final IndexSearcher searcher = newSearcher(reader);
    final QueryCachingPolicy policy =
        new QueryCachingPolicy() {

          @Override
          public boolean shouldCache(Query query) throws IOException {
            return query.getClass() != TermQuery.class;
          }

          @Override
          public void onUse(Query query) {
            // no-op
          }
        };
    searcher.setQueryCachingPolicy(policy);
    w.close();

    // lead cost is 2, cost of subQuery1 is 3, cost of subQuery2 is 2
    BooleanQuery.Builder inner = new BooleanQuery.Builder();
    TermQuery innerSubQuery1 = new TermQuery(new Term("hobby", "book"));
    TermQuery innerSubQuery2 = new TermQuery(new Term("hobby", "movie"));
    BooleanQuery subQuery1 =
        inner.add(innerSubQuery1, Occur.SHOULD).add(innerSubQuery2, Occur.SHOULD).build();

    BooleanQuery.Builder bq = new BooleanQuery.Builder();
    TermQuery subQuery2 = new TermQuery(new Term("name", "alice"));
    BooleanQuery query =
        bq.add(new ConstantScoreQuery(subQuery1), Occur.FILTER)
            .add(subQuery2, Occur.FILTER)
            .build();
    Set<Query> cacheSet = new HashSet<>();

    // both queries are not cached
    final LRUQueryCache partCache = new LRUQueryCache(1000000, 10000000, _ -> true, 1);
    searcher.setQueryCache(partCache);
    searcher.search(query, 1);
    assertEquals(cacheSet, new HashSet<>(partCache.cachedQueries()));

    // only subQuery1 is cached
    final LRUQueryCache allCache =
        new LRUQueryCache(1000000, 10000000, _ -> true, Float.POSITIVE_INFINITY);
    searcher.setQueryCache(allCache);
    searcher.search(query, 1);
    cacheSet.add(subQuery1);
    assertEquals(cacheSet, new HashSet<>(allCache.cachedQueries()));

    reader.close();
    dir.close();
  }

  public void testCacheHasFastCount() throws IOException {
    Query query = new PhraseQuery("words", new BytesRef("alice"), new BytesRef("ran"));

    Directory dir = newDirectory();
    RandomIndexWriter w =
        new RandomIndexWriter(
            random(), dir, newIndexWriterConfig().setMergePolicy(NoMergePolicy.INSTANCE));
    Document doc1 = new Document();
    doc1.add(new TextField("words", "tom ran", Store.NO));
    Document doc2 = new Document();
    doc2.add(new TextField("words", "alice ran", Store.NO));
    doc2.add(new StringField("f", "a", Store.NO));
    Document doc3 = new Document();
    doc3.add(new TextField("words", "alice ran", Store.NO));
    doc3.add(new StringField("f", "b", Store.NO));
    w.addDocuments(Arrays.asList(doc1, doc2, doc3));

    try (IndexReader reader = w.getReader()) {
      IndexSearcher searcher = newSearcher(reader);
      searcher.setQueryCachingPolicy(ALWAYS_CACHE);
      LRUQueryCache allCache =
          new LRUQueryCache(1000000, 10000000, _ -> true, Float.POSITIVE_INFINITY);
      searcher.setQueryCache(allCache);
      Weight weight = searcher.createWeight(query, ScoreMode.COMPLETE_NO_SCORES, 1);
      LeafReaderContext context = getOnlyLeafReader(reader).getContext();
      // We don't have a fast count before the cache is filled
      assertEquals(-1, weight.count(context));
      // Fetch the scorer to populate the cache
      weight.scorer(context);
      assertEquals(List.of(query), allCache.cachedQueries());
      // Now we *do* have a fast count
      assertEquals(2, weight.count(context));
    }

    w.deleteDocuments(new TermQuery(new Term("f", new BytesRef("b"))));
    try (IndexReader reader = w.getReader()) {
      IndexSearcher searcher = newSearcher(reader);
      searcher.setQueryCachingPolicy(ALWAYS_CACHE);
      LRUQueryCache allCache =
          new LRUQueryCache(1000000, 10000000, _ -> true, Float.POSITIVE_INFINITY);
      searcher.setQueryCache(allCache);
      Weight weight = searcher.createWeight(query, ScoreMode.COMPLETE_NO_SCORES, 1);
      LeafReaderContext context = getOnlyLeafReader(reader).getContext();
      // We don't have a fast count before the cache is filled
      assertEquals(-1, weight.count(context));
      // Fetch the scorer to populate the cache
      weight.scorer(context);
      assertEquals(List.of(query), allCache.cachedQueries());
      // We still don't have a fast count because we have deleted documents
      assertEquals(-1, weight.count(context));
    }

    w.close();
    dir.close();
  }

  public void testSkipCacheFactorWithDynamicValues() throws IOException {
    Directory dir = newDirectory();
    final RandomIndexWriter w = new RandomIndexWriter(random(), dir);
    Document doc1 = new Document();
    doc1.add(new StringField("name", "tom", Store.YES));
    doc1.add(new StringField("hobby", "movie", Store.YES));
    Document doc2 = new Document();
    doc2.add(new StringField("name", "alice", Store.YES));
    doc2.add(new StringField("hobby", "book", Store.YES));
    Document doc3 = new Document();
    doc3.add(new StringField("name", "alice", Store.YES));
    doc3.add(new StringField("hobby", "movie", Store.YES));
    w.addDocuments(Arrays.asList(doc1, doc2, doc3));
    final IndexReader reader = w.getReader();
    final IndexSearcher searcher = newSearcher(reader);
    final QueryCachingPolicy policy =
        new QueryCachingPolicy() {

          @Override
          public boolean shouldCache(Query query) throws IOException {
            return query.getClass() != TermQuery.class;
          }

          @Override
          public void onUse(Query query) {
            // no-op
          }
        };
    searcher.setQueryCachingPolicy(policy);
    w.close();

    // lead cost is 2, cost of subQuery1 is 3, cost of subQuery2 is 2
    BooleanQuery.Builder inner = new BooleanQuery.Builder();
    TermQuery innerSubQuery1 = new TermQuery(new Term("hobby", "book"));
    TermQuery innerSubQuery2 = new TermQuery(new Term("hobby", "movie"));
    BooleanQuery subQuery1 =
        inner.add(innerSubQuery1, Occur.SHOULD).add(innerSubQuery2, Occur.SHOULD).build();

    BooleanQuery.Builder bq = new BooleanQuery.Builder();
    TermQuery subQuery2 = new TermQuery(new Term("name", "alice"));
    BooleanQuery query =
        bq.add(new ConstantScoreQuery(subQuery1), Occur.FILTER)
            .add(subQuery2, Occur.FILTER)
            .build();
    Set<Query> cacheSet = new HashSet<>();

    // Define skip cache factor to be 1, so that query is not cached.
    final LRUQueryCache cache = new LRUQueryCache(1000000, 10000000, _ -> true, 1.0f);
    searcher.setQueryCache(cache);
    searcher.search(query, 1);
    assertEquals(cacheSet, new HashSet<>(cache.cachedQueries()));
    assertEquals(1.0, cache.getSkipCacheFactor(), 0);

    // Now change the skipCacheFactor to 3.0f, now same query should get cached.
    cache.setSkipCacheFactor(3.0f);
    searcher.search(query, 1);
    assertEquals(new HashSet<>(List.of(subQuery1)), new HashSet<>(cache.cachedQueries()));
    assertEquals(3.0, cache.getSkipCacheFactor(), 0);

    reader.close();
    dir.close();
  }
}
